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Synthetic ice

January 01, 1970

Synthetic ice is a solid polymer material designed for skating using normal metal-bladed ice skates. Rinks are constructed by interlocking panels. Synthetic ice is sometimes called artificial ice, but that term is ambiguous, as it is also used to mean the mechanically frozen skating surface created by freezing water with refrigeration equipment.

Ice hockey team training on synthetic ice

Synthetic ice is marketed under brand names including Glice, Xtraice, PolyGlide Ice and Global Synthetic Ice.[1]

History edit

The first known application of plastics as a substitute for ice for the purpose of ice skating was in the 1960s using materials such as polyoxymethylene plastic, which was developed by DuPont in the early 1950s.[2] The polymers used at the time had some significant shortcomings, the most obvious being that skaters could not glide on these surfaces as they can on real ice without the regular application of a silicone compound. The compound would build up on the surface, collecting dirt and grime.

In 1982, High Density Plastics launched the first full-size synthetic skating floor under the trade name of Hi Den Ice.[3] The surface was made of interlocking panels of high-density polyethylene which became an ice rink when sprayed with a gliding fluid. The surface needed to be cleaned off and resprayed once a month. In a dry form, the panels were also usable for other indoor sports.[4]

Research and development in the field of synthetic ice has improved its skating characteristics. Special polymer materials have been specifically engineered for skating and unique lubricants designed to work with the polymer and be absorbed by it so that the surface is less sticky and does not attract contaminants while providing an ice-like glide. Smoothness between panels at seams has been improved by ameliorations in production and assembly methods. It is estimated that synthetic ice has 90% of the glide factor of natural ice.[5]

In 2019, the world's largest synthetic ice rink opened in Zócalo Square in Mexico City. It spanned 43,000 square feet.[6]

Comparison with true ice edit

When skating on natural ice, the molecules in the microscopic top layer of the ice acts as a "quasi-fluid" that reduces drag and causes the blade to glide on top of the ice.[7][8][9][10][11] On synthetic ice rinks, liquid surface enhancements are common among synthetic ice products to further reduce drag on the skate blade over the artificial surface. However, most synthetic ice products allow skating without liquid.

Materials edit

A typical synthetic ice rink will consist of many panels (usually in typical building material sheet sizes) of thin surface material assembled on top of a sturdy, level and smooth sub-floor (anything from concrete to wood or even dirt or grass) to create a large skating area. The connection systems vary. A true commercial joint connection system can be installed virtually on any type of surface whereas the typical "dovetail" joint system requires a near perfect substrate to operate safely.

The most common material used is high-density polyethylene (HDPE), but recently[when?] ultra-high-molecular-weight polyethylene (UHMW-PE) is being used by some manufacturers. This new formula has the lowest coefficient levels of friction, at only 10% to 15% greater than real ice.

However, synthetics have not been able to fully duplicate the properties of real ice so far. First, more effort is required to skate. Although this side effect can be positive for resistance training, skaters report missing out on the fun of effortless skating. Second, most synthetic ice products still wear down the blade of a skate very quickly, with 30 minutes to 120 minutes the industry average.[12] Third, many synthetic rinks produce a large amount of shavings and abrasions – especially if the material is extruded sheet. Sinter-pressed material, on the other hand,[clarification needed] uses a much higher molecular weight resin and has a far better abrasion resistance, and therefore the shavings are greatly reduced. Surfaces have to be cleaned less often with the sinter-pressed material than with an extruded product, and the attractiveness of the rink is increased significantly.

Usage edit

Synthetic ice rinks are sometimes used where frozen ice surfaces are impractical due to temperatures making natural ice impossible.[13] Synthetic ice rinks are also used as an alternative to artificial ice rinks due to the overall cost, not requiring any refrigeration equipment.[14] For pleasure skating, rinks have been installed indoors at resorts and entertainment venues while newer installations are being made outdoors. For purposes of ice hockey, synthetic ice rinks are typically smaller, at about 50 feet (15 m) by 50 feet (15 m), and are used for specialized training, such as shooting or goalie training.[14]

Manufacturers edit

Synthetic ice manufacturers include European-based Glice and Xtraice, and Hauppauge, NY-based PolyGlide Ice.[1][15]

Examples edit

See also edit

References edit

 
Wikimedia Commons has media related to Synthetic ice.
  1. ^ a b "Ice Skating in July on Synthetic Ice". Interesting Engineering. 2020-02-05. Retrieved 2020-02-10.
  2. ^ Joseph P. Kennedy; Wayne H. Watkins (31 July 2012). How to Invent and Protect Your Invention: A Guide to Patents for Scientists and Engineers. John Wiley & Sons. pp. 194–. ISBN 978-1-118-41009-7.
  3. ^ "Synthetic Ice Rink Specifications" 2013-08-23 at the Wayback Machine noiceone.com
  4. ^ Chandas & Roy 2007, p. 7-46.
  5. ^ Akovali 2007, p. 178.
  6. ^ "The World's Largest Eco-Skating Rink Opens for the Holidays in Mexico City". PRN Newswire. Retrieved 2022-06-28.
  7. ^ Chang, Kenneth (21 February 2006). "Explaining Ice: The Answers Are Slippery". The New York Times. from the original on 11 December 2008.
  8. ^ Somorjai, G.A. (10 June 1997). "Molecular surface structure of ice(0001): dynamical low-energy electron diffraction, total-energy calculations and molecular dynamics simulations". Surface Science. 381 (2–3): 190–210. Bibcode:1997SurSc.381..190M. doi:10.1016/S0039-6028(97)00090-3. Most studies so far were performed at temperatures well above 240 K (−33 °C) and report the presence of a liquid or quasiliquid layer on ice. Those studies that went below this temperature do not suggest a liquid-like layer.
  9. ^ Roth, Mark (23 December 2012). "Pitt physics professor explains the science of skating across the ice". Pittsburgh Post-Gazette. from the original on 15 July 2021. Retrieved 15 July 2021. It used to be thought ... that the reason skaters can glide gracefully across the ice is because the pressure they exert on the sharp blades creates a thin layer of liquid on top of the ice... More recent research has shown, though, that this property isn't why skaters can slide on the ice... It turns out that at the very surface of the ice, water molecules exist in a state somewhere between a pure liquid and a pure solid. It's not exactly water – but it's like water. The atoms in this layer are 100,000 times more mobile than the atoms [deeper] in the ice, but they're still 25 times less mobile than atoms in water. So it's like proto-water, and that's what we're really skimming on.
  10. ^ "Slippery All the Time". Exploratorium. from the original on 19 July 2012. Professor Somorjai's findings indicate that ice itself is slippery. You don't need to melt the ice to skate on it, or need a layer of water as a lubricant to help slide along the ice... the "quasi-fluid" or "water-like" layer exists on the surface of the ice and may be thicker or thinner depending on temperature. At about 250 degrees below zero Fahrenheit (−157 °C), the ice has a slippery layer one molecule thick. As the ice is warmed, the number of these slippery layers increases.
  11. ^ Science News Staff (9 December 1996). "Getting a Grip on Ice". Science NOW. from the original on 2 December 2022. Retrieved 30 June 2022.
  12. ^ John, Geraint; Campbell, Kit (1996). Swimming Pools and Ice Rinks. Architectural Press. p. 242.
  13. ^ "Beer League Hockey". Beer League Hockey.
  14. ^ a b "'New Generation' of Synthetic Ice Gains Popularity". Commercial Property News. August 7, 2008.
  15. ^ "On Roofs or in Basements, a New Way to Ice Skate". The NY Times. 2020-02-01. Retrieved 2020-02-10.
  16. ^ Petkewich, Rachel (February 16, 2009). "Synthetic Ice Rinks, Historic Hot Cocoa". Newscripts. Chemical & Engineering News. 87 (7): 64. doi:10.1021/cen-v087n007.p064.
  17. ^ "Luxury Hotels Europe, Middle East & Far East". Jumeirah. Retrieved 2019-06-18.
  18. ^ "Power Kart Raceway". www.powerkarts.com.au. Retrieved 2019-06-18.
  19. ^ "Synthetic Ice Rinks". Public Works. 131 (12): 44. 2000.
  20. ^ "Marina Bay Sands replaces ice skating rink with new digital art exhibit". Straits Times. 22 December 2017.
  21. ^ "Fukuoka Now City Bulletin Dec. 2011". Retrieved 11 December 2012.
  22. ^ . Archived from the original on 2015-11-26. Retrieved 2015-11-26.
  23. ^ "Ice rink to open in St George's | the Royal Gazette:Bermuda News". 5 October 2016.
  24. ^ "BAYSHORE SHOPPING CENTRE | Ottawa's Favourite Mall".
  25. ^ Facebook
  26. ^ Velocity World. Doha, Qatar. Video: https://www.facebook.com/plugins/video.php?href=https%3A%2F%2Fwww.facebook.com%2Fvelocityworldqatar%2Fvideos%2F300687333726376%2F&show_text=0&width=269.
  27. ^ Artificial Skating Rink Winter Glow 2019 (Bruges, Belgium) video: https://www.facebook.com/watch/?v=1023981064661363.
  28. ^ Artificial Skating Rink Winter Glow 2019 (Bruges, Belgium) video: https://www.youtube.com/watch?v=jOLpgIagIvo.
  • Akovali, Guneri (2007). Plastics, Rubber and Health. iSmithers Rapra Publishing.
  • Chandas, Manas; Roy, Salil (2007). Plastics Technology Handbook (4th ed.). Taylor & Francis. ISBN 978-0-8493-7039-7.

External links edit

  • 10 Dream Home Rinks

https://www.nytimes.com/2010/12/13/sports/hockey/13ice.html /Who Needs Ice? Synthetic Surface Extends Season

January 01, 1970
synthetic, some, this, article, listed, sources, reliable, please, help, improve, this, article, looking, better, more, reliable, sources, unreliable, citations, challenged, removed, august, 2018, learn, when, remove, this, message, solid, polymer, material, d. Some of this article s listed sources may not be reliable Please help improve this article by looking for better more reliable sources Unreliable citations may be challenged and removed August 2018 Learn how and when to remove this message Synthetic ice is a solid polymer material designed for skating using normal metal bladed ice skates Rinks are constructed by interlocking panels Synthetic ice is sometimes called artificial ice but that term is ambiguous as it is also used to mean the mechanically frozen skating surface created by freezing water with refrigeration equipment Ice hockey team training on synthetic ice Synthetic ice is marketed under brand names including Glice Xtraice PolyGlide Ice and Global Synthetic Ice 1 Contents 1 History 2 Comparison with true ice 2 1 Materials 3 Usage 4 Manufacturers 4 1 Examples 5 See also 6 References 7 External linksHistory editThe first known application of plastics as a substitute for ice for the purpose of ice skating was in the 1960s using materials such as polyoxymethylene plastic which was developed by DuPont in the early 1950s 2 The polymers used at the time had some significant shortcomings the most obvious being that skaters could not glide on these surfaces as they can on real ice without the regular application of a silicone compound The compound would build up on the surface collecting dirt and grime In 1982 High Density Plastics launched the first full size synthetic skating floor under the trade name of Hi Den Ice 3 The surface was made of interlocking panels of high density polyethylene which became an ice rink when sprayed with a gliding fluid The surface needed to be cleaned off and resprayed once a month In a dry form the panels were also usable for other indoor sports 4 Research and development in the field of synthetic ice has improved its skating characteristics Special polymer materials have been specifically engineered for skating and unique lubricants designed to work with the polymer and be absorbed by it so that the surface is less sticky and does not attract contaminants while providing an ice like glide Smoothness between panels at seams has been improved by ameliorations in production and assembly methods It is estimated that synthetic ice has 90 of the glide factor of natural ice 5 In 2019 the world s largest synthetic ice rink opened in Zocalo Square in Mexico City It spanned 43 000 square feet 6 Comparison with true ice editWhen skating on natural ice the molecules in the microscopic top layer of the ice acts as a quasi fluid that reduces drag and causes the blade to glide on top of the ice 7 8 9 10 11 On synthetic ice rinks liquid surface enhancements are common among synthetic ice products to further reduce drag on the skate blade over the artificial surface However most synthetic ice products allow skating without liquid Materials edit A typical synthetic ice rink will consist of many panels usually in typical building material sheet sizes of thin surface material assembled on top of a sturdy level and smooth sub floor anything from concrete to wood or even dirt or grass to create a large skating area The connection systems vary A true commercial joint connection system can be installed virtually on any type of surface whereas the typical dovetail joint system requires a near perfect substrate to operate safely The most common material used is high density polyethylene HDPE but recently when ultra high molecular weight polyethylene UHMW PE is being used by some manufacturers This new formula has the lowest coefficient levels of friction at only 10 to 15 greater than real ice However synthetics have not been able to fully duplicate the properties of real ice so far First more effort is required to skate Although this side effect can be positive for resistance training skaters report missing out on the fun of effortless skating Second most synthetic ice products still wear down the blade of a skate very quickly with 30 minutes to 120 minutes the industry average 12 Third many synthetic rinks produce a large amount of shavings and abrasions especially if the material is extruded sheet Sinter pressed material on the other hand clarification needed uses a much higher molecular weight resin and has a far better abrasion resistance and therefore the shavings are greatly reduced Surfaces have to be cleaned less often with the sinter pressed material than with an extruded product and the attractiveness of the rink is increased significantly Usage editSynthetic ice rinks are sometimes used where frozen ice surfaces are impractical due to temperatures making natural ice impossible 13 Synthetic ice rinks are also used as an alternative to artificial ice rinks due to the overall cost not requiring any refrigeration equipment 14 For pleasure skating rinks have been installed indoors at resorts and entertainment venues while newer installations are being made outdoors For purposes of ice hockey synthetic ice rinks are typically smaller at about 50 feet 15 m by 50 feet 15 m and are used for specialized training such as shooting or goalie training 14 Manufacturers editSynthetic ice manufacturers include European based Glice and Xtraice and Hauppauge NY based PolyGlide Ice 1 15 Examples edit The Polar Rink at the American Museum of Natural History in New York City 16 The world s largest synthetic ice rink at Zocalo in Mexico City Mexico The CCM Performance Lab in Montreal Canada The biggest synthetic ice rink in the US at Ark Encounter Williamstown Kentucky The hockey elite training center at HC Davos in Switzerland The synthetic rink at Jumeirah Vittaveli in the Maldives 17 Australia s largest synthetic ice rink at Power Kart Raceway in Canberra 18 Moscow Russia circus on ice portable rink The Winter Garden arena in Ridgefield Connecticut The arena has a conventional ice rink which is closed in the summer while a 2 600 square foot 240 m2 synthetic ice rink is used year round for youth hockey training and public skating 19 The former indoor skating rink in Marina Bay Sands in Singapore This 600 square metre indoor rink was created from very high Molecular Weight Polyethylene and was open to the public but has since been replaced 20 Kego Park Iceless Skating Rink in Fukuoka Japan 21 Mawsons Skate in Hobart Tasmania Australia The Hockey Academy Centre RedBull in Salzburg Austria Parson s Chicken amp Fish Winter Rink in Chicago Illinois 22 The St George Skates rink at Somers Gardens in the town of St George s Bermuda 23 Bayshore Shopping Centre in Ottawa Ontario 24 Santo Stefano D Aveto Sports Center in Genoa Italy 25 Velocity World Doha Qatar 26 The World s largest synthetic ice rink in Baku Azerbaijan Artificial Skating Rink at Winter Glow 2019 on Lake of Love in Bruges Belgium 27 28 Skating Village in Jekyll Island Historic District on Jekyll Island Georgia USA See also editTribology IceReferences edit nbsp Wikimedia Commons has media related to Synthetic ice a b Ice Skating in July on Synthetic Ice Interesting Engineering 2020 02 05 Retrieved 2020 02 10 Joseph P Kennedy Wayne H Watkins 31 July 2012 How to Invent and Protect Your Invention A Guide to Patents for Scientists and Engineers John Wiley amp Sons pp 194 ISBN 978 1 118 41009 7 Synthetic Ice Rink Specifications Archived 2013 08 23 at the Wayback Machine noiceone com Chandas amp Roy 2007 p 7 46 Akovali 2007 p 178 The World s Largest Eco Skating Rink Opens for the Holidays in Mexico City PRN Newswire Retrieved 2022 06 28 Chang Kenneth 21 February 2006 Explaining Ice The Answers Are Slippery The New York Times Archived from the original on 11 December 2008 Somorjai G A 10 June 1997 Molecular surface structure of ice 0001 dynamical low energy electron diffraction total energy calculations and molecular dynamics simulations Surface Science 381 2 3 190 210 Bibcode 1997SurSc 381 190M doi 10 1016 S0039 6028 97 00090 3 Most studies so far were performed at temperatures well above 240 K 33 C and report the presence of a liquid or quasiliquid layer on ice Those studies that went below this temperature do not suggest a liquid like layer Roth Mark 23 December 2012 Pitt physics professor explains the science of skating across the ice Pittsburgh Post Gazette Archived from the original on 15 July 2021 Retrieved 15 July 2021 It used to be thought that the reason skaters can glide gracefully across the ice is because the pressure they exert on the sharp blades creates a thin layer of liquid on top of the ice More recent research has shown though that this property isn t why skaters can slide on the ice It turns out that at the very surface of the ice water molecules exist in a state somewhere between a pure liquid and a pure solid It s not exactly water but it s like water The atoms in this layer are 100 000 times more mobile than the atoms deeper in the ice but they re still 25 times less mobile than atoms in water So it s like proto water and that s what we re really skimming on Slippery All the Time Exploratorium Archived from the original on 19 July 2012 Professor Somorjai s findings indicate that ice itself is slippery You don t need to melt the ice to skate on it or need a layer of water as a lubricant to help slide along the ice the quasi fluid or water like layer exists on the surface of the ice and may be thicker or thinner depending on temperature At about 250 degrees below zero Fahrenheit 157 C the ice has a slippery layer one molecule thick As the ice is warmed the number of these slippery layers increases Science News Staff 9 December 1996 Getting a Grip on Ice Science NOW Archived from the original on 2 December 2022 Retrieved 30 June 2022 John Geraint Campbell Kit 1996 Swimming Pools and Ice Rinks Architectural Press p 242 Beer League Hockey Beer League Hockey a b New Generation of Synthetic Ice Gains Popularity Commercial Property News August 7 2008 On Roofs or in Basements a New Way to Ice Skate The NY Times 2020 02 01 Retrieved 2020 02 10 Petkewich Rachel February 16 2009 Synthetic Ice Rinks Historic Hot Cocoa Newscripts Chemical amp Engineering News 87 7 64 doi 10 1021 cen v087n007 p064 Luxury Hotels Europe Middle East amp Far East Jumeirah Retrieved 2019 06 18 Power Kart Raceway www powerkarts com au Retrieved 2019 06 18 Synthetic Ice Rinks Public Works 131 12 44 2000 Marina Bay Sands replaces ice skating rink with new digital art exhibit Straits Times 22 December 2017 Fukuoka Now City Bulletin Dec 2011 Retrieved 11 December 2012 Parson s Skating Rink is Back but There s One Big Difference Logan Square DNAinfo com Chicago Archived from the original on 2015 11 26 Retrieved 2015 11 26 Ice rink to open in St George s the Royal Gazette Bermuda News 5 October 2016 BAYSHORE SHOPPING CENTRE Ottawa s Favourite Mall Facebook Velocity World Doha Qatar Video https www facebook com plugins video php href https 3A 2F 2Fwww facebook com 2Fvelocityworldqatar 2Fvideos 2F300687333726376 2F amp show text 0 amp width 269 Artificial Skating Rink Winter Glow 2019 Bruges Belgium video https www facebook com watch v 1023981064661363 Artificial Skating Rink Winter Glow 2019 Bruges Belgium video https www youtube com watch v jOLpgIagIvo Akovali Guneri 2007 Plastics Rubber and Health iSmithers Rapra Publishing Chandas Manas Roy Salil 2007 Plastics Technology Handbook 4th ed Taylor amp Francis ISBN 978 0 8493 7039 7 External links edit10 Dream Home Rinks https www nytimes com 2010 12 13 sports hockey 13ice html Who Needs Ice Synthetic Surface Extends Season Retrieved from https en wikipedia org w index php title Synthetic ice amp oldid 1203526176, wikipedia, wiki, book, books, library,

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